Your search keyword '"Cherasse, Yoan"' showing total 14 results

1. A gain-of-function study of amelioration of pentylenetetrazole-induced seizures by endogenous prostaglandin D2

Author

Kaushik, Mahesh K., Aritake, Kosuke, Cherasse, Yoan, Sharma, Rahul, and Urade, Yoshihiro

Published

2018

2. mDia and ROCK Mediate Actin-Dependent Presynaptic Remodeling Regulating Synaptic Efficacy and Anxiety

Author

90303817, Deguchi, Yuichi, Harada, Masaya, Shinohara, Ryota, Lazarus, Michael, Cherasse, Yoan, Urade, Yoshihiro, Yamada, Daisuke, Sekiguchi, Masayuki, Watanabe, Dai, Furuyashiki, Tomoyuki, Narumiya, Shuh, 90303817, Deguchi, Yuichi, Harada, Masaya, Shinohara, Ryota, Lazarus, Michael, Cherasse, Yoan, Urade, Yoshihiro, Yamada, Daisuke, Sekiguchi, Masayuki, Watanabe, Dai, Furuyashiki, Tomoyuki, and Narumiya, Shuh

Abstract

Here, we show neuronal inactivation-induced presynaptic remodeling and involvement of the mammalian homolog of Diaphanous (mDia) and Rho-associated coiled-coil-containing kinase (ROCK), Rho-regulated modulators of actin and myosin, in this process. We find that social isolation induces inactivation of nucleus accumbens (NAc) neurons associated with elevated anxiety-like behavior, and that mDia in NAc neurons is essential in this process. Upon inactivation of cultured neurons, mDia induces circumferential actin filaments around the edge of the synaptic cleft, which contract the presynaptic terminals in a ROCK-dependent manner. Social isolation induces similar mDia-dependent presynaptic contraction at GABAergic synapses from NAc neurons in the ventral tegmental area (VTA) associated with reduced synaptic efficacy. Optogenetic stimulation of NAc neurons rescues the anxiety phenotype, and injection of a specific ROCK inhibitor, Y-27632, into the VTA reverses both presynaptic contraction and the behavioral phenotype. mDia-ROCK signaling thus mediates actin-dependent presynaptic remodeling in inactivated NAc neurons, which underlies synaptic plasticity in emotional behavioral responses.

Published

2016

3. Enhancing endogenous adenosine A2A receptor signaling induces slow-wave sleep without affecting body temperature and cardiovascular function.

Author

Saitoh, Tsuyoshi, Cherasse, Yoan, Ioka, Shuji, Fujii, Shinya, Zhou, Xuzhao, Nagase, Hiroshi, Lazarus, Michael, Korkutata, Mustafa, Duo, Feng, Qin, Rujie, Murakoshi, Nobuyuki, Sugiyama, Fumihiro, Chen, Jiang-Fan, and Kumagai, Hidetoshi

Subjects

*ADENOSINES, *CELL communication, *SLOW wave sleep, *CARDIOVASCULAR system physiology, *BODY temperature, *INSOMNIA

Abstract

Abstract Insomnia is one of the most common sleep problems with an estimated prevalence of 10%–15% in the general population. Although adenosine A 2A receptor (A 2A R) agonists strongly induce sleep, their cardiovascular effects preclude their use in treating sleep disorders. Enhancing endogenous A 2A R signaling, however, may be an alternative strategy for treating insomnia, because adenosine levels in the brain accumulate during wakefulness. In the present study, we found that 3,4-difluoro-2-((2-fluoro-4-iodophenyl)amino)benzoic acid, denoted A 2A R positive allosteric modulator (PAM)-1, enhanced adenosine signaling at the A 2A R and induced slow wave sleep (SWS) without affecting body temperature in wild-type male mice after intraperitoneal administration, whereas the SWS-inducing effect of this benzoic acid derivative was abolished in A 2A R KO mice. In contrast to the A 2A R agonist CGS 21680, the A 2A R PAM-1 did not affect blood pressure or heart rate. These findings indicate that enhancing A 2A R signaling promotes SWS without cardiovascular effects. Therefore, small molecules that allosterically modulate A 2A Rs could help people with insomnia to fall asleep. Graphical abstract Image 1 Highlights • First positive allosteric modulator for adenosine A 2A receptors, denoted A 2A R PAM-1. • A 2A R PAM-1 promotes slow-wave sleep (SWS) in a dose-dependent manner in mice. • Adenosine A 2A receptors are necessary for A 2A R PAM-1 to induce SWS. • Enhancing adenosine A 2A receptor signaling does not induce hypothermia. • Systemic administration of A 2A R PAM-1 does not affect blood pressure or heart rate. [ABSTRACT FROM AUTHOR]

Published

2019

4. mDia and ROCK Mediate Actin-Dependent Presynaptic Remodeling Regulating Synaptic Efficacy and Anxiety.

Author

Deguchi, Yuichi, Harada, Masaya, Shinohara, Ryota, Lazarus, Michael, Cherasse, Yoan, Urade, Yoshihiro, Yamada, Daisuke, Sekiguchi, Masayuki, Watanabe, Dai, Furuyashiki, Tomoyuki, and Narumiya, Shuh

Abstract

Summary Here, we show neuronal inactivation-induced presynaptic remodeling and involvement of the mammalian homolog of Diaphanous (mDia) and Rho-associated coiled-coil-containing kinase (ROCK), Rho-regulated modulators of actin and myosin, in this process. We find that social isolation induces inactivation of nucleus accumbens (NAc) neurons associated with elevated anxiety-like behavior, and that mDia in NAc neurons is essential in this process. Upon inactivation of cultured neurons, mDia induces circumferential actin filaments around the edge of the synaptic cleft, which contract the presynaptic terminals in a ROCK-dependent manner. Social isolation induces similar mDia-dependent presynaptic contraction at GABAergic synapses from NAc neurons in the ventral tegmental area (VTA) associated with reduced synaptic efficacy. Optogenetic stimulation of NAc neurons rescues the anxiety phenotype, and injection of a specific ROCK inhibitor, Y-27632, into the VTA reverses both presynaptic contraction and the behavioral phenotype. mDia-ROCK signaling thus mediates actin-dependent presynaptic remodeling in inactivated NAc neurons, which underlies synaptic plasticity in emotional behavioral responses. [ABSTRACT FROM AUTHOR]

Published

2016

5. Role of the repressor JDP2 in the amino acid-regulated transcription of CHOP

Author

Chérasse, Yoan, Chaveroux, Cédric, Jousse, Céline, Maurin, Anne-Catherine, Carraro, Valérie, Parry, Laurent, Fafournoux, Pierre, and Bruhat, Alain

Published

2008

6. The GCN2 kinase biases feeding behavior to maintain amino acid homeostasis in omnivores.

Author

Maurin, Anne-Catherine, Jousse, Céline, Averous, Julien, Parry, Laurent, Bruhat, Alain, Cherasse, Yoan, Zeng, Huiqing, Zhang, Yuhong, Harding, Heather P., Ron, David, and Fafournoux, Pierre

Subjects

CELL metabolism, AMINO acids, FOOD, PROTEIN kinases, PHOSPHORYLATION

Abstract

Summary: To insure an adequate supply of nutrients, omnivores choose among available food sources. This process is exemplified by the well-characterized innate aversion of omnivores to otherwise nutritious foods of imbalanced amino acid content. We report that brain-specific inactivation of GCN2, a ubiquitously expressed protein kinase that phosphorylates translation initiation factor 2 α (eIF2α) in response to intracellular amino acid deficiency, impairs this aversive response. GCN2 inactivation also diminishes phosphorylated eIF2α levels in the mouse anterior piriform cortex following consumption of an imbalanced meal. An ancient intracellular signal transduction pathway responsive to amino acid deficiency thus affects feeding behavior by activating a neuronal circuit that biases consumption against imbalanced food sources. [Copyright &y& Elsevier]

Published

2005

7. The role of extracellular adenosine in the basal ganglia for sleep-wake regulation

Author

Lazarus, Michael, Cherasse, Yoan, Hiasa, Miki, Chen, Jiang-Fan, Urade, Yoshihiro, and Hayaishi, Osamu

Published

2010

8. Extracellular adenosine and slow-wave sleep are increased after ablation of nucleus accumbens core astrocytes and neurons in mice.

Author

Zhou, Xuzhao, Oishi, Yo, Cherasse, Yoan, Korkutata, Mustafa, Fujii, Shinya, Lee, Chia-Ying, and Lazarus, Michael

Subjects

*ADENOSINES, *NUCLEUS accumbens, *ASTROCYTES, *NEURONS, *DIPHTHERIA toxin

Abstract

Abstract Sleep and wakefulness are controlled by a wide range of neuronal populations in the mammalian brain. Activation of adenosine A 2A receptor (A 2A R)-expressing neurons in the nucleus accumbens (NAc) core promotes slow-wave sleep (SWS). The neuronal mechanism by which activation of NAc A 2A R neurons induces SWS, however, is unknown. We hypothesized that the ability of NAc activation to induce sleep is mediated by the classic somnogen adenosine, which can be formed by various processes in all types of cells. Here, to investigate whether astrocytes are involved in the ability of the NAc to regulate SWS, we ablated glial fibrillary acidic protein (GFAP)-positive cells in the NAc core of mice by virus-mediated expression of diphtheria toxin (DT) receptors and intraperitoneal administration of DT. Analysis of electroencephalogram and electromyogram recordings of DT-treated wild-type mice revealed that SWS was remarkably increased at 1 week after DT treatment, whereas sleep-wake behavior was unchanged in DT-treated A 2A R knockout mice. Cell ablation was associated with an increased number of GFAP-positive cells and activation of microglia in the NAc. In-vivo microdialysis revealed significantly increased levels of extracellular adenosine in the NAc at 1 week after DT treatment. Our findings suggest that elevated adenosine levels in the NAc core promote SWS by acting on A 2A Rs and provide the first evidence that adenosine is an endogenous candidate for activating NAc A 2A R neurons that have the ability to induce SWS. Highlights • Ablation of astrocytes and neurons in the nucleus accumbens core increases slow-wave sleep. • Slow-wave sleep is mediated by elevated adenosine levels acting on adenosine A 2A receptors. • Ablation of astrocytes and neurons results in the activation of microglia and astrocytes. [ABSTRACT FROM AUTHOR]

Published

2019

9. Molecular mechanisms involved in the adaptation to amino acid limitation in mammals

Author

Chaveroux, Cédric, Lambert-Langlais, Sarah, Cherasse, Yoan, Averous, Julien, Parry, Laurent, Carraro, Valérie, Jousse, Céline, Maurin, Anne-Catherine, Bruhat, Alain, and Fafournoux, Pierre

Subjects

*BIOLOGICAL adaptation, *AMINO acids, *MALNUTRITION, *CELLULAR mechanics, *MOLECULES, *GENE expression, MAMMAL cytology

Abstract

Abstract: In mammals, metabolic adaptations are required to cope with episodes of protein deprivation and malnutrition. Consequently, mammals have to adjust physiological functions involved in the adaptation to amino acid availability. Part of this regulation involves the modulation of the expression of numerous genes. In particular, it has been shown that amino acids by themselves can modify the expression of target genes. This review describes the regulation of amino acids homeostasis and the their role as signal molecules. The recent advances in the understanding of the molecular mechanisms involved in the control of mammalian gene expression in response to amino acid limitation will be described. [Copyright &y& Elsevier]

Published

2010

10. Chronic Stress Induces Sex-Specific Functional and Morphological Alterations in Corticoaccumbal and Corticotegmental Pathways.

Author

Bittar, Thibault P., Pelaez, Mari Carmen, Hernandez Silva, Jose Cesar, Quessy, Francis, Lavigne, Andrée-Anne, Morency, Daphnée, Blanchette, Léa-Jeanne, Arsenault, Eric, Cherasse, Yoan, Seigneur, Josée, Timofeev, Igor, Sephton, Chantelle F., Proulx, Christophe D., and Labonté, Benoit

Subjects

*PSYCHOLOGICAL stress, *NUCLEUS accumbens, *PREFRONTAL cortex

Abstract

The medial prefrontal cortex (mPFC) is part of a complex circuit controlling stress responses by sending projections to different limbic structures including the nucleus accumbens (NAc) and ventral tegmental area (VTA). However, the impact of chronic stress on NAc- and VTA-projecting mPFC neurons is still unknown, and the distinct contribution of these pathways to stress responses in males and females is unclear. Behavioral stress responses were induced by 21 days of chronic variable stress in male and female C57BL/6NCrl mice. An intersectional viral approach was used to label both pathways and assess the functional, morphological, and transcriptional adaptations in NAc- and VTA-projecting mPFC neurons in stressed males and females. Using chemogenetic approaches, we modified neuronal activity of NAc-projecting mPFC neurons to decipher their contribution to stress phenotypes. Chronic variable stress induced depressive-like behaviors in males and females. NAc- and VTA-projecting mPFC neurons exhibited sex-specific functional, morphological, and transcriptional alterations. The functional changes were more severe in females in NAc-projecting mPFC neurons, while males exhibited more drastic reductions in dendritic complexity in VTA-projecting mPFC neurons after chronic variable stress. Finally, chemogenetic overactivation of the corticoaccumbal pathway triggered anxiety and behavioral despair in both sexes, while its inhibition rescued the phenotype only in females. Our results suggest that stress responses in males and females result from pathway-specific changes in the activity of transcriptional programs controlling the morphological and synaptic properties of corticoaccumbal and corticotegmental pathways in a sex-specific fashion. [ABSTRACT FROM AUTHOR]

Published

2021

11. Corrigendum to "Enhancing endogenous adenosine A2A receptor signaling induces slow-wave sleep without affecting body temperature and cardiovascular function" [Neuropharmacology 144 (2019) 122–132].

Author

Korkutata, Mustafa, Saitoh, Tsuyoshi, Cherasse, Yoan, Ioka, Shuji, Duo, Feng, Qin, Rujie, Murakoshi, Nobuyuki, Fujii, Shinya, Zhou, Xuzhao, Sugiyama, Fumihiro, Chen, Jiang-Fan, Kumagai, Hidetoshi, Nagase, Hiroshi, and Lazarus, Michael

Subjects

*ADENOSINES, *BODY temperature, *BODY temperature regulation, *NEUROPHARMACOLOGY, *ALLOSTERIC regulation, *SLEEP, *BIOSYNTHESIS

Published

2019

12. Activation of Parvalbumin Neurons in the Rostro-Dorsal Sector of the Thalamic Reticular Nucleus Promotes Sensitivity to Pain in Mice.

Author

Liu, Jing, Zhang, Meng-Qi, Wu, Xu, Lazarus, Michael, Cherasse, Yoan, Yuan, Mao-Yun, Huang, Zhi-Li, and Li, Rui-Xi

Subjects

*CALCIUM-binding proteins, *PARVALBUMINS, *GABAERGIC neurons, *PAIN management, *CELL nuclei, *TRANSGENIC mice

Abstract

The calcium-binding protein, parvalbumin (PV), is highly expressed in thalamic reticular nucleus (TRN) GABAergic neurons, which receive input from the cerebral cortex and thalamus and send inhibitory output to the thalamic relay nucleus. Previous studies suggest that the TRN is involved in pain regulation as an important relay nucleus of the ascending pain pathway. However, little is known about its functional role in pain regulation and interconnectivity. In our study, the role of rostro-dorsal sector of TRN (TRNrd) PV-positive neurons in pain regulation was studied using chemogenetics based on designer receptors exclusively activated by designer drugs (DREADD). Then, projections from the TRNrd PV-positive neurons were explored using PV-Cre transgenic mice, conditional anterograde axonal tract tracing, and optogenetics, combined with immunohistochemistry and electrophysiology. The results showed that activation of PV-positive neurons in the TRNrd decreased the mechanical threshold and thermal latency of behaving mice during the light period when neuronal activity was low. Furthermore, the anterodorsal and paratenial thalamic nucleus received innervation from PV-positive neurons in the TRNrd. They were specifically inhibited by GABA, which is released from local axonal endings of PV neurons. These findings indicate that activation of PV neurons in the TRNrd increases pain sensitivity in PV-Cre transgenic mice. [ABSTRACT FROM AUTHOR]

Published

2017

13. Amino-acid limitation induces the GCN2 signaling pathway in myoblasts but not in myotubes

Author

Deval, Christiane, Talvas, Jérémie, Chaveroux, Cédric, Maurin, Anne-Catherine, Mordier, Sylvie, Cherasse, Yoan, Parry, Laurent, Carraro, Valérie, Jousse, Céline, Bruhat, Alain, and Fafournoux, Pierre

Subjects

*AMINO acids, *GENE expression, *MYOBLASTS, *PROTEIN kinases, *PROTEOLYSIS, *GENETIC regulation

Abstract

Abstract: There is a growing body of evidence that suggests that amino acids play an important role in controlling gene expression, but the cell specificity of the amino-acid-mediated regulation of gene expression in mammals remains unknown. Using a model of muscle cells (C2C12) at two stages of differentiation, i.e. myoblasts and myotubes, we employed transcriptional profiling to show that amino-acid deficiency does not regulate the same set of gene in differentiated and non-differentiated cells. Furthermore, in myotubes, the GCN2 pathway is not activated by amino-acid starvation due to an amino-acid supply from intracellular proteolysis associated with a low GCN2 expression. [Copyright &y& Elsevier]

Published

2008

14. Activation of adenosine A2A receptors in the olfactory tubercle promotes sleep in rodents.

Author

Li, Rui, Wang, Yi-Qun, Liu, Wen-Ying, Zhang, Meng-Qi, Li, Lei, Cherasse, Yoan, Schiffmann, Serge N., de Kerchove d'Exaerde, Alban, Lazarus, Michael, Qu, Wei-Min, and Huang, Zhi-Li

Subjects

*OLFACTORY receptors, *OREXINS, *NON-REM sleep, *SMELL, *SLEEP

Abstract

The olfactory tubercle (OT), an important nucleus in processing sensory information, has been reported to change cortical activity under odor. However, little is known about the physiological role and mechanism of the OT in sleep-wake regulation. The OT expresses abundant adenosine A 2A receptors (A 2A Rs), which are important in sleep regulation. Therefore, we hypothesized that the OT regulates sleep via A 2A Rs. This study examined sleep-wake profiles through electroencephalography and electromyography recordings with pharmacological and chemogenetic manipulations in freely moving rodents. Compared with their controls, activation of OT A 2A Rs pharmacologically and OT A 2A R neurons via chemogenetics increased non-rapid eye movement sleep for 5 and 3 h, respectively, while blockade of A 2A Rs decreased non-rapid eye movement sleep. Tracing and electrophysiological studies showed OT A 2A R neurons projected to the ventral pallidum and lateral hypothalamus, forming inhibitory innervations. Together, these findings indicate that A 2A Rs in the OT play an important role in sleep regulation. • Activation of OT A 2A Rs increased NREM sleep. • Blockade of OT A 2A Rs increased sleep latency. • Chemogenetic activation of OT A 2A R neurons increased NREM sleep. • Connections between OT A 2A R neurons and neurons in the VP and LH were inhibitory. • The study concluded that the OT promotes sleep through A 2A Rs and A2AR neurons. [ABSTRACT FROM AUTHOR]

Published

2020